Academic Research Case: Non-Contact Temperature Measurement in High-Power Laser Experiments

Customer Industry: Academic Research

Application Scenario: High-Intensity Laser Physics Laboratory

Background

In cutting-edge laser physics research, precise temperature measurement is crucial when testing materials under high-power laser irradiation. Traditional contact-based temperature sensors cannot withstand the intense energy or may interfere with the experiment.

Solution

The research team adopted SensorMicro's COIN1212R uncooled infrared camera core for non-contact temperature measurement. By using infrared thermal imaging, they were able to:

• Visualize the overall temperature distribution of the sample under laser irradiation

• Detect localized heating effects without interfering with the experiment

• Monitor temperature safely and accurately in real time

Benefits

With COIN1212R, the laboratory achieved:

• Accurate, non-contact thermal measurements for high-energy experiments

• Improved experimental safety, avoiding potential hazards from direct contact sensors

• Comprehensive thermal data to optimize experimental parameters

This case demonstrates how SensorMicro's infrared thermal imaging solutions are ideal for academic and scientific research, providing precise, reliable, and non-invasive temperature measurement.